Oxidative stress and PARP activation in the lungs is an early event in COVID-19 pneumonia

Juhász, Péter and Bohus, Péter and Sipos, Adrienn and Curtin, Nicola and Méhes, Gábor and Bay, Péter (2025) Oxidative stress and PARP activation in the lungs is an early event in COVID-19 pneumonia. FREE RADICAL BIOLOGY AND MEDICINE, 237. pp. 530-541. ISSN 0891-5849 (In Press)

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Abstract

Oxidative stress and poly (ADP-ribosyl)ation (PARylation) leads to tissue damage and inflammation in multiple lung diseases, likely in COVID-19. In a previous study we evidenced PARylation in multiple pulmonary cell types in patients who died of COVID-19, but not in patients who died of non-COVID-19 causes. We extended these observations in this retrospective immunohistochemical study by enlarging and stratifying the study population to identify subpopulations with high expression of the markers assessed in the study. We showed that pulmonary PARylation and oxidative stress peaked in the exudative and then decreased in the proliferative phase. PARylation correlated with viral load and with the oxidative stress in the tissues, however, correlation between viral load and oxidative stress was marginal suggesting that oxidative stress and the presence of SARS-CoV-2 can independently induce PARylation. Pulmonary oxidative stress, PARylation and TNFα expression correlated with the serum markers of liver and kidney damage, oxygen transport, tissue hypoxia, lymphocytopenia, blood clotting and disseminated intravascular coagulation. In males the time of hospitalization (time to death) was inversely correlated with pulmonary PARylation. Furthermore, males, died of COVID-19, were ∼15 years younger than females, however, there was no difference in pulmonary oxidative stress and PARylation between genders at death. Taken together, pulmonary PARylation and oxidative stress manifests early, in the exudative phase of COVID-19 and PARylation contributes to worse clinical outcome for males. These results suggest repurposing pharmacological PARP inhibitors for acute COVID-19 to counteract tissue damage.

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